TW201235275A - Manufacturing method of gas packing bag - Google Patents

Abstract

The present invention provides a manufacturing method of gas packing bag, which sends out an upper plastic film, a large area of air valve film and a lower plastic film for superimposition and places them on one platform of a packaging material forming machine to laminate the air valve film to the bottom of the upper plastic film by using a pressurizing component. Then, the upper and the lower plastic films and the air valve film are placed on another platform and a hot-pressing component is used to emboss a number of spaced seal strips arranged in a crisscross pattern. The space between the seal strips can be filled with the gas to from gas columns in order to be used for packaging articles and absorbing shock as buffering. Therefore, by using the first sealing manner, the degree of alignment between the upper and the lower plastic films increases, and by using the second hot-pressing manner, the thin gas packing bag can be manufactured at lower costs.

Description

201235275 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a method for producing a gas packaging bag, which can increase the riding degree and reduce the length of the package into a short length. Gas [Prior Art] A package that has traditionally been used for packaging items and can be used as a buffer: However, due to the small size of the airbag, :== It is impossible to effectively exert its suction when reading a hit; The gas column type cushioning packaging material ^ and the size reduction (4) large New Zealand to provide the production method of the gas packaging bag for the shock absorber (4) and (4), please refer to 穑r I, the system will have a composite The gas valve film 31 on the layer 21 and a small area of the hot oil film is sent out and stacked on top of each other, and then placed on the bag. On one of the platforms 11 of the molding machine 1, the pressurizing member 12' press-fitted to the upper plastic film is used to form the plastic film 22 Μ η & Then, the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ In the upper and lower molding =, =, a number of intervals are printed on the upper house and the criss-crossing seals 23 are sealed between the seals 23 to form an air column 24 for use as a package 201235275 for loading and shock absorbing. Thereafter, the upper and lower plastic films 21, 22 and the gas valve film 31 are pressed by the upper and lower folding assembly 15, the edge sealing assembly 16, and the cutting assembly 17 of the packaging material forming machine j. The outlet node is folded in half, the edge is sealed, and the finished product is cut, that is, a plurality of gas packaging bag finished products 41 are formed. However, the manufacturing method of the conventional gas packaging bag can mass-produce the gas packaging bag finished product 41, but it uses a small-area air valve film 31, so that the gas valve film 31 needs to be pressed onto the upper surface. The bottom of the plastic film 21, and the secondary sealing method of the upper and lower plastic films 21, 22 and the lower embossing combination, resulting in a large number of manufacturing procedures, and poor alignment of the upper and lower plastic films 2, 22 In order to cooperate with the secondary sealing method of the upper and lower plastic films 21 and 22, the packaging material forming machine 1 needs to lengthen the length of the machine equipment, causing the equipment to occupy the use space to increase the use cost. Therefore, in order to improve the lack of the above-mentioned secondary sealing method, a manufacturer has proposed another method for producing a gas packaging bag. Please refer to FIG. 3, which is a manufacturing method of a first sealing method, which is to apply a plastic film 21 thereon. A large-sized air valve film 31 and a lower plastic film 22 are simultaneously sent out and stacked on each other, and then placed on a platform of a packaging material forming machine, and erected on the packaging material forming machine 1 The upper and lower actuating hot press assemblies 14 are embossed on the upper and lower Nalai, 22 and the gas sight 31, and are spaced and criss-crossed and sealed, and the sealing ribs are inflatable to form a gas column 24 'After serving as a packaged article, shock absorbing buffer ^, the folding material assembly 15 of the packaging material forming machine 1 can be operated up and down, an edge sealing assembly 16 and a cutting component π, the upper and lower portions Plastic film 21, 22 and the valve film (4) (4) difficult to make _, edge _ seal and into ^ cutting, that is, the formation of a plurality of finished fabric packaging bags 41. As a result, the manufacturing process is reduced and the alignment of the upper and lower plastic films 2i, 22 is increased by the -201218275 type, and the length of the packaging material forming machine 1 is shortened, which greatly reduces the use cost. However, the production method of the other conventional gas packaging bag can improve the lack of the above-mentioned secondary sealing method, but it is formed by hot pressing the upper and lower plastic films 21 and 22 and the gas valve film 31 at one time because The hot film forming of the plastic film is related to the thickness of the molded product, the temperature during the molding process, and the time the product is present in the machine, and the time when the molded product exists in the machine is fixed. When the thickness of the stamper product is increased, the temperature during the stamping process needs to be increased to be hot-pressed at a time, so that the upper and lower plastic films 21 and 22 and the gas valve film 31 are hot-pressed at one time to make the molded product When the thickness is increased, the hot pressing temperature needs to be increased. However, the hot pressing temperature is too high, and only the gas packaging bag having the thick thickness of the plastic film 21 and the lower plastic film 22 can be manufactured, and the gas bag having a thin thickness is easily burned too hot. The surface of the finished product 41 of the gas packaging bag is broken or melted, and the finished product fails, and manufacturing cannot be performed, resulting in a thin gas packaging bag which cannot be manufactured at a low cost, which does not meet the demand for low cost. Φ , ,, the manufacturing method of the above-mentioned prior art gas packaging bag does have further improvement. In view of the shortcomings derived from the above-mentioned conventional production methods of gas packaging bags, the inventor of the present invention has improved and innovated, and after years of painstaking research, he finally succeeded in research and development of the production method of the gas packaging bag. . SUMMARY OF THE INVENTION An object of the present invention is to provide a method for producing a gas packaging bag which is capable of producing a gas packaging bag, and the upper and lower plastic 201235275 film can increase the alignment. Another object of the present invention is to provide a method for producing a gas packaging bag by the method of manufacturing a gas packaging bag, and the total length of the material forming machine can be greatly shortened. A further object of the present invention is to provide a method for producing a gas packaging bag by means of secondary thermocompression, so that the hot pressing temperature does not pass through, and the cost of the thin Wei body bag (four) can be manufactured. Low cost requirements. _ The production method of the gas packaging bag which can achieve the above object, including the following steps. Firstly, the first step is to transfer the film on the composite layer, the heat-resistant oil film with a large area, and the plastic under the composite layer. After the film is sent out and stacked on top of each other, it is then placed on the platform of one of the packaging material forming machines to utilize the pressurizing component that can be actuated by the upper and lower parts of the bag (four) material forming machine. Pressing the upper plastic film to the bottom; then, placing the upper plastic film, the gas film, and the lower plastic film on another platform of the packaging material forming machine, using the packaging material forming machine a hot-pressing component that can be actuated up and down, embossing (4) pre-separated and interlaced (four) strips on the upper and lower plastic films and the air gap f, the sealing strip core can be inflated to form a gas column for use as a packaged article And shock absorbing buffer; after that, the packaging material forming machine can be used to move up and down the eccentric edge sealing component and a cutting group #, and the upper and lower plastic film and the valve film are pressed out of the node. And for folding, edge sealing and finished cutting I.e., a plurality of gas Jealous finished bags. In this way, the manufacturing process is reduced by the --seal method, and the alignment of the upper and lower division films is increased, and the length of the 201235275 packaging material forming machine is shortened, the use cost is greatly reduced, and the cost is reduced by the money. In a way, the temperature of the clock is not high, and the thin gas packaging bag with lower cost can be manufactured, which meets the demand of low cost. The following is a detailed description of a preferred embodiment of the present invention and the accompanying drawings, which will further explain the technical contents of the present invention and its functions and effects, and the present invention, as shown in FIGS. 4 and 5, the present invention The method for manufacturing a gas packaging crucible provided includes the following steps: First, a plastic film 51 having a composite layer, a larger area of the hot oil film _52 and a composite layer under the plastic shaft 53 are simultaneously sent out and stacked on top of each other, and then placed on a flat piece of the -packing material forming machine 6, and the pressurizing unit 62 of the packaging material forming machine 6 can be mounted on the upper and lower sides of the packaging material forming machine 6 to _52 is pressed against the bottom of the upturn (four). Then, the upper film is disposed on the other platform 63 of the packaging material forming machine 6, and the upper plastic film 53 is placed on the other platform 63 of the packaging material forming machine 6. The upper and lower mirror assemblies 64 are embossed on the upper and lower plastic films 51 and 53 and the air valve film 52 with a plurality of intervals and a criss-crossing seal strip 7 between the seal strips 71. 72, for use as a packaged item, shock absorber buffer. Then, the upper and lower molding membranes 51, 53 and the gas valve membrane 52 are pressed out by using a folding assembly 65, an edge sealing assembly 66 and a cutting assembly 67, which can be moved up and down by one of the packaging material forming machines 6. The nodes are also folded in half, edge sealed and finished product cut, that is, a plurality of gas bag finished products 201235275 are formed, so that the manufacturing process is reduced by one sealing method, and the alignment of the upper and lower plastic films 51, 53 is increased. 'And the length of the packaging material forming machine 6 is shortened' greatly reduces the cost of use, and the hot pressing temperature is not excessively high by means of secondary thermocompression bonding, and a thin gas packaging bag having a lower cost can be manufactured. Meet the needs of low cost. Moreover, the plastic film 51 is composed of three layers of plastic film stacked on top of each other. The upper layer is a plastic film 511 of LLDPE (linear low density polyethylene), and the middle layer is a plastic of NYLON (nylon). The film 512 and the lower layer are another plastic film 513 made of LLDPE (linear low density polyethylene), so that the upper plastic film 51 has a certain elasticity and toughness, is not easy to be broken, and can fill a certain gas and withstand a large pressure. . The lower plastic film 53 is composed of three layers of plastic film stacked on top of each other, wherein the upper layer is a plastic film 531 of LLDPE (linear low density polyethylene) material, and the middle layer is a plastic film 532 of NYLON (nylon) material. The lower layer is another plastic film 533 of LLDPE (linear low density polyethylene) material, so that the lower plastic film 53 has certain elasticity and toughness, is not easy to be broken, and can fill a certain gas and withstand large pressure. Referring to FIG. 5, the gas valve film 52 is formed of a heat-resistant oil film having a large area, and can withstand high temperature during pressure heat sealing to avoid bonding with the upper and lower plastic films 51 and 53. An inflatable channel is formed on the finished gas packaging bag 7 to form a gas column. The air passage formed by the air valve membrane 52 is a double-layer one-way passage. Once the upper inflation passage is filled with gas, the lower inflation passage is recharged, and the lower inflation passage blocks the inlet 521 of the air valve membrane 52 to make the gas The column is formed. 201235275 The manufacturing method of the gas packaging bag provided by the present invention has the following advantages when compared with the conventional techniques described above: 1. The I manufacturing procedure is reduced, and the alignment of the upper and lower plastic film 5 is increased. . 2 to make the length of the package I material forming machine, greatly reduce the use of cost 0 core 3 by the method of secondary thermocompression, so that the hot pressing temperature is not too high, and

, a thin gas packaging bag with a lower manufacturing cost, in order to meet the demand of low cost, the detailed description is directed to a specific embodiment of the present invention, but the implementation of the ship Equivalent implementations or modifications of the spirit of the invention, such as variations of equivalent embodiments, are intended to be included in the scope of the patent. [Simple description of the diagram] Figure 1 is a diagram of the continuous motion diagram of the conventional process. Figure 2 is a schematic view of a conventional product. Figure 3 is another conventional process continuous action diagram. Figure 4 is a diagram showing the continuous operation of the process of the present invention. Figure 5 is a schematic view of the article of the present invention. [Main component symbol description] 51 plastic film 512 NYL〇N material plastic film 52 air valve film 53 plastic film 511 LLDPE material plastic 臈513 another LLDPE material plastic film 521 inlet 531 LLDPE material plastic 臈201235275 532 NYLON material plastic film 6 packaging material forming machine 62 pressurizing component 64 hot pressing component 66 edge sealing component 7 gas packaging bag finished product 72 gas column 533 another LLDPE material plastic film 61 platform 63 another platform 65 folding component 67 cutting component 71 seal

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Claims (1)

201235275 VII. Patent application scope: A gas-packed production of green, comprising the following steps, a plastic film a above, a pressurizing assembly mounted on a packaging material forming machine, pressing a gas valve film to have a composite layer Bottom, b, placing the upper film, Wei_ and - having a composite layer on the other platform of the packaging material forming machine, using the package loosely formed on the machine - can be operated up and down Hot-pressing component ^ upper and lower plastic film and the valve film are embossed with a plurality of intervals and vertical and horizontal cross-sealing strips. The sealing strips can be integrated (4) for the purpose of smashing objects and shock absorbing buffers; c , _ _ packaging (four) machine - the upper and lower touch of the right component, - edge seal assembly and a cutting component, the upper and lower plastic film and the gas _ extrusion node and folded in half, edge seal and finished product Cutting, that is, forming a plurality of gas packaging bag products; characterized in that: in the above step a, the gas valve film and the lower film of the heat-resistant oil film having the larger area are simultaneously sent out and superposed on each other. After that, put it in the bag, material The machines - on the platform, using the frame of the packaging material ⑶ machine press unit 'The film is laminated to the valve on the bottom of the plastic film. 2. The method for producing a gas packaging bag according to claim 1, wherein the upper plastic film is composed of three layers of plastic film superposed on each other, wherein the upper layer is an LLDPE (linear low density poly Plastic film made of vinyl), the middle layer is a plastic film made of coffee (N), and the lower layer is 201235275. It is a plastic enamel made of another LLDPE (linear low density polyethylene). 3. The method for producing a gas packaging bag as described in claim 1, wherein the lower plastic film is composed of three layers of plastic film superposed on each other, wherein the upper layer is an LLDPE (low linearity) Density polyethylene) plastic film, the layer is a NYLON (nylon) plastic film, the lower layer is another LLDPE (linear low density polyethylene) plastic film. For example, the method for producing a gas packaging bag according to Item 1 of the full-time application, wherein the gas valve film is composed of a large-area heat-resistant oil film, can withstand high temperature during pressurization and heat sealing, and is prevented from being upper and lower. _ _ in - = and the level of gas package | bag finished product ± formed - money road, the sputum makes the gas column formed. 12